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Probing the topological Anderson transition in quasiperiodic photonic lattices via chiral displacement and wavelength tuning

Abhinav Sinha, Trideb Shit, Avinash Tetarwal, Diptiman Sen, Sebabrata Mukherjee

2025Physical review. A/Physical review, A6 citationsDOIOpen Access PDF

Abstract

The interplay of topology and disorder in quantum dynamics has recently attracted significant attention across diverse platforms, including solid-state devices, ultracold atoms, and photonic systems. Here, we report on a topological Anderson transition caused by quasiperiodic modulation of the stronger intra-cell couplings in photonic Su-Schrieffer-Heeger lattices. As the quasiperiodic strength is varied, the system exhibits a reentrant transition from a trivial phase to a topological phase and back to a trivial phase, accompanied by the closing and reopening of the band gap around zero energy. Unlike the traditional detection of photonic topological edge modes, we measure the mean chiral displacement from the transport of light in the bulk of the lattices. In our photonic lattices with a fixed length, the propagation dynamics is retrieved by varying the wavelength of light, which tunes the inter-waveguide couplings.

Topics & Concepts

Quasiperiodic functionPhotonicsPhysicsWavelengthPhotonic crystalTopology (electrical circuits)Displacement (psychology)Condensed matter physicsOptoelectronicsMathematicsPsychologyCombinatoricsPsychotherapistTopological Materials and PhenomenaNonlinear Photonic SystemsPhotonic Crystals and Applications
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